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An optimal charging method for Li-ion batteries using a fuzzy-control approach based on polarization properties

An optimal charging method for Li-ion batteries using a fuzzy-control approach based on polarization properties
An optimal charging method for Li-ion batteries using a fuzzy-control approach based on polarization properties
Battery charging is growing in importance as it has direct influence on battery performance and safety. This paper develops a generalized online estimation method for a charge-polarization-voltage-based resistance-capacitance ( RC) circuit model to simulate the charging behavior of Li-ion batteries. The effects of charging current, initial state of charge (SOC), initial polarization state, and aging on the charge polarization voltage are quantitatively analyzed in both time and SOC domains. It is demonstrated that the charge polarization voltage is nonlinearly related to these impact factors. In the SOC domain, the change in the charge polarization voltage is also analyzed with the gradient analytical method, and the relations between current, polarization voltage amplitude at the inflection point, and SOC are quantitatively established. This can be used to estimate battery SOC and polarization voltage accurately. A constant-polarization-based fuzzy-control charging method is proposed to adapt charging current acceptance with battery SOC stages. Experimental results demonstrate that the proposed charging method significantly shortens charging time with no obvious temperature rise compared with the traditional constant-current-constant-voltage charging method
0018-9545
3000-3009
Jiang, Jiuchun
f8179175-250c-497f-9810-a2ccaf207547
Zhang, Caiping
e7275506-0354-4315-a41f-373f9ba5e7b2
Wen, Jiapeng
48488e28-b45b-4d8b-bf79-ffc52320a960
Zhang, Weige
d6043aa2-5f89-4231-830c-e22a9087c6b5
Sharkh, S.M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Jiang, Jiuchun
f8179175-250c-497f-9810-a2ccaf207547
Zhang, Caiping
e7275506-0354-4315-a41f-373f9ba5e7b2
Wen, Jiapeng
48488e28-b45b-4d8b-bf79-ffc52320a960
Zhang, Weige
d6043aa2-5f89-4231-830c-e22a9087c6b5
Sharkh, S.M.
c8445516-dafe-41c2-b7e8-c21e295e56b9

Jiang, Jiuchun, Zhang, Caiping, Wen, Jiapeng, Zhang, Weige and Sharkh, S.M. (2013) An optimal charging method for Li-ion batteries using a fuzzy-control approach based on polarization properties. IEEE Transactions on Vehicular Technology, 62 (7), 3000-3009. (doi:10.1109/TVT.2013.2252214).

Record type: Article

Abstract

Battery charging is growing in importance as it has direct influence on battery performance and safety. This paper develops a generalized online estimation method for a charge-polarization-voltage-based resistance-capacitance ( RC) circuit model to simulate the charging behavior of Li-ion batteries. The effects of charging current, initial state of charge (SOC), initial polarization state, and aging on the charge polarization voltage are quantitatively analyzed in both time and SOC domains. It is demonstrated that the charge polarization voltage is nonlinearly related to these impact factors. In the SOC domain, the change in the charge polarization voltage is also analyzed with the gradient analytical method, and the relations between current, polarization voltage amplitude at the inflection point, and SOC are quantitatively established. This can be used to estimate battery SOC and polarization voltage accurately. A constant-polarization-based fuzzy-control charging method is proposed to adapt charging current acceptance with battery SOC stages. Experimental results demonstrate that the proposed charging method significantly shortens charging time with no obvious temperature rise compared with the traditional constant-current-constant-voltage charging method

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Published date: September 2013
Organisations: Mechatronics

Identifiers

Local EPrints ID: 376376
URI: http://eprints.soton.ac.uk/id/eprint/376376
DOI: doi:10.1109/TVT.2013.2252214
ISSN: 0018-9545
PURE UUID: 189548fc-275c-441f-b4d2-3d07e38545ab
ORCID for S.M. Sharkh: ORCID iD orcid.org/0000-0001-7335-8503

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Date deposited: 24 Apr 2015 15:33
Last modified: 15 Mar 2024 02:48

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Contributors

Author: Jiuchun Jiang
Author: Caiping Zhang
Author: Jiapeng Wen
Author: Weige Zhang
Author: S.M. Sharkh ORCID iD

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